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Jan 1957

Volume 1, Issue 1, pp. 1-222


Presentation of the Bingham Medal to Arthur V. Tobolsky

Hugh S. Taylor

Trans. Soc. Rheol. 1, 1 (1957); http://dx.doi.org/10.1122/1.548804 (2 pages)

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01.10.Cr Announcements, news, and awards
01.60.+q Biographies, tributes, personal notes, and obituaries

The Tackiness of Liquid Adhesives

J. J. Bikerman

Trans. Soc. Rheol. 1, 3 (1957); http://dx.doi.org/10.1122/1.548805 (12 pages)

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83.80.Rs Polymer solutions
83.80.Sg Polymer melts
83.50.Lh Slip boundary effects (interfacial and free surface flows)
47.50.-d Non-Newtonian fluid flows

The Viscosity of Suspensions of Spheres. III. Sediment Volume as a Determining Parameter

James V. Robinson

Trans. Soc. Rheol. 1, 15 (1957); http://dx.doi.org/10.1122/1.548806 (10 pages)

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83.80.Hj Suspensions, dispersions, pastes, slurries, colloids
83.80.Iz Emulsions and foams
66.20.-d Viscosity of liquids; diffusive momentum transport
83.60.Bc Linear viscoelasticity

Normal Stress Effect in Polyisobutylene Solutions. I. Measurements in a Cone and Plate Instrument

Hershel Markovitz and R. Brady Williamson

Trans. Soc. Rheol. 1, 25 (1957); http://dx.doi.org/10.1122/1.548803 (12 pages)

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83.80.Rs Polymer solutions
83.80.Sg Polymer melts
83.10.Gr Constitutive relations
47.50.-d Non-Newtonian fluid flows

Normal Stress Effect in Polyisobutylene Solutions. II. Classification and Application of Rheological Theories

Hershel Markovitz

Trans. Soc. Rheol. 1, 37 (1957); http://dx.doi.org/10.1122/1.548807 (16 pages)

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83.80.Rs Polymer solutions
83.80.Sg Polymer melts
83.10.Ff Continuum mechanics
83.10.Gr Constitutive relations

Stress‐Strain Relations in a Suspension of Dumbbells

Stephen Prager

Trans. Soc. Rheol. 1, 53 (1957); http://dx.doi.org/10.1122/1.548808 (10 pages) | Cited 1 time

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83.80.Hj Suspensions, dispersions, pastes, slurries, colloids
83.80.Iz Emulsions and foams
81.40.Jj Elasticity and anelasticity, stress-strain relations
83.50.Ax Steady shear flows, viscometric flow

A Theory of the Viscosity of a Maxwellian Elastic Liquid

M. Mooney

Trans. Soc. Rheol. 1, 63 (1957); http://dx.doi.org/10.1122/1.548809 (32 pages)

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83.80.Rs Polymer solutions
83.80.Sg Polymer melts
83.60.Bc Linear viscoelasticity
66.20.-d Viscosity of liquids; diffusive momentum transport

On Normal Stresses, Flow Curves, Flow Birefringence, and Normal Stresses of Polyisobutylene Solutions. Part I. Fundamental Principles

W. Philippoff

Trans. Soc. Rheol. 1, 95 (1957); http://dx.doi.org/10.1122/1.548810 (13 pages)

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83.80.Rs Polymer solutions
83.80.Sg Polymer melts
83.80.Tc Polymer blends
83.50.Ax Steady shear flows, viscometric flow

On Normal Stresses, Flow Curves, Flow Birefringence, and Normal Stresses of Polyisobutylene Solutions. Part II. Experimental

John G. Brodnyan, F. H. Gaskins, and W. Philippoff

Trans. Soc. Rheol. 1, 109 (1957); http://dx.doi.org/10.1122/1.548811 (10 pages)

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83.80.Rs Polymer solutions
83.80.Sg Polymer melts
83.80.Tc Polymer blends
83.50.Ax Steady shear flows, viscometric flow

Strain Aging Hydrogen Embrittlement in Alpha‐Beta Titanium Alloys

Harris M. Burte

Trans. Soc. Rheol. 1, 119 (1957); http://dx.doi.org/10.1122/1.548813 (33 pages)

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83.80.Ab Solids: e.g., composites, glasses, semicrystalline polymers
83.80.-k Material type
83.10.Gr Constitutive relations

A Stochastic Process Model for Mechanical Breakdown

Bernard D. Coleman

Trans. Soc. Rheol. 1, 153 (1957); http://dx.doi.org/10.1122/1.548812 (16 pages)

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83.10.Gr Constitutive relations
62.20.F- Deformation and plasticity
83.60.Wc Flow instabilities
83.60.Yz Drag reduction

On Ideal Locking Materials

William Prager

Trans. Soc. Rheol. 1, 169 (1957); http://dx.doi.org/10.1122/1.548818 (7 pages)

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83.60.La Viscoplasticity; yield stress
62.20.F- Deformation and plasticity
62.40.+i Anelasticity, internal friction, stress relaxation, and mechanical resonances

Heat Generation and Conduction in the Flow of a Viscous Compressible Liquid

H. L. Toor

Trans. Soc. Rheol. 1, 177 (1957); http://dx.doi.org/10.1122/1.548814 (14 pages)

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83.60.Uv Wave propagation, fracture, and crack healing
47.40.Nm Shock wave interactions and shock effects
83.80.Sg Polymer melts

The Thermal Incline: A Means of Measuring Viscosities of Plastisols at Elevated Temperatures

E. T. Severs and J. M. Austin

Trans. Soc. Rheol. 1, 191 (1957); http://dx.doi.org/10.1122/1.548815 (12 pages)

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66.20.-d Viscosity of liquids; diffusive momentum transport
83.60.La Viscoplasticity; yield stress
83.80.Sg Polymer melts

Capillary Flow of Molten Polyethylene—A Photographic Study of Melt Fracture

J. P. Tordella

Trans. Soc. Rheol. 1, 203 (1957); http://dx.doi.org/10.1122/1.548816 (10 pages)

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83.80.Rs Polymer solutions
83.80.Sg Polymer melts
83.60.Uv Wave propagation, fracture, and crack healing
47.20.Gv Viscous and viscoelastic instabilities
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Proposed Nomenclature for Linear Viscoelastic Behavior

Herbert Leaderman

Trans. Soc. Rheol. 1, 213 (1957); http://dx.doi.org/10.1122/1.548817 (10 pages) | Cited 1 time

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83.10.Ff Continuum mechanics
83.60.Bc Linear viscoelasticity
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